A. Celentano On behalf of the FT team March 6th, 2018
FT Status All three detectors fully operational Calorimeter: - Cooking circuit leak developed in December repaired early January - Calorimeter operated at 20 C - In data taking mode since beginning of January run - Readout settings optimized - Cluster trigger commissioned and now in use Hodoscope: - Detector fully operational - HV and Readout settings optimized - SiPM gains dependence on luminosity detected and corrected for (room for hardware improvement) Tracker: - Gas leak detected in one of the two detectors in December - Detector replaced with spare early January - Full tracker, 2 double-layer detectors in operation with only few noisy channels - HV and readout settings optimized - One gas flowmeter to be replaced after the run 2
FT Calorimeter readout parameters HV: voltages sets by design for LAAPD gain of 150 TET: set to 15 since 2/1, corresponding to ~12 MeV (10 MeV by design) NSB, NSA: 20 ns,120 ns in both offline and online Windows offsets adjusted (FADCs/VTP) Window width: 400 ns 6 dead channels, 3 reparable 3
FT Calorimeter readout parameters 4
FT Calorimeter cosmic calibrations Cosmic data taking with FT-Cal: FT-Cal self trigger based on OR of fadcs majority signal Noise level fully consistent with EEL measurements FT-Cal response as expected 5
FT Calorimeter elastic calibrations 6
FT Calorimeter elastic calibrations Analysis of 2.2 GeV FTonly data (run 2433) Upper end of energy Electron energy spectrum at 2.2 GeV spectrum of cluster seed crystal fitted σ E /E ~ 3.3% [1.7%] Value compared to Initial energy calibration based on elastic simulations electrons at 2.2 GeV: 3.3 % resolution @ 2 GeV, Correction factors used to still limited by accuracy of calibration (being derive chare2energy improved) and energy threshold (20 MeV) conversion Refinement for crystals close to calorimeter edges is needed Improvement of fitting function in progress Constants in CCDB, in use (online/offline) since 2/20 7
FT Calorimeter: pi0 reconstruction Double cluster event in the FT Elastic electron calibration constants presently applied to all runs since 2284 (beginning of 2.2 GeV) Effect of new calibration tested at 10.6 GeV looking at pi0 reconstruction 2 photon invariant mass at 10.6 GeV 2 photon events selected from FT trigger events σ ~ 4.4 MeV Hodoscope used as a veto to exclude charge particle clusters 8
FT hodoscope HV and Readout settings HV: gain matching base on MIPs, final value selected to have acceptable currents at full luminosity TET: set to 50 since 2/1, corresponding to ~5 photoelectrons, good noise suppression while preserving small signals NSB, NSA: - Online: 10 ns, 50 ns to get the peak height - Offline: 16 ns, 200 to integrate full pulse for charge determination Windows offsets adjusted Window width: 400 ns All channel operational 9
FT hodoscope HV and Readout settings 10
FT hodoscope calibration Charged particles selected by requiring hits in matching tiles Charge distribution fitted with a Landau + exponential function to extract the peak position Analysis done with both nsa/nsb for offline (CCDB) and online (trigger gains) 11
FT hodoscope calibration 80 60 Overall Average 3052: I=16 na 3390: I=36 na 3449: I=50 na Mips Current [pc] 0.8 0.6 3 10 1 Thick Layer Sec 1 0.4 40 0.2 20 0 0 2 4 6 8 10 Channel 0 100 200 300 400 Mips Current [pc] Reduction of MIP signal observed for increasing luminosity, due to the sizeable current across the SiPM polarization circuit (induced by converted scintillation light!) Calibration has to be performed for each luminosity setting Mips Mips Current [pc] [pc] 103 1 10 1 0.8 0.8 0.6 0.6 0.4 0.4 0.2 0.2 3 Thin Layer Sec 1 Thick Layer Sec 8 0 0 0 2 4 6 8 10 0 5 10 15 20 Channel Channel ] 10 1 3 10 3 12 Thin Layer Sec 8 CLAS12 Thick Layer First Sec Experiment 7 Workshop
FT tracker HV and readout settings Almost 100% channels operational: Few dead channels Few noisy channels Occupancy plots indicate issues with translation table that needs to be corrected Readout window offset optimized 13
FT Trigger FTCal trigger operational: - Clustering in 3x3 matrix, with selection of seed energy and cluster size - New fadc gains based on elastic electron calibration at 2.2 GeV - Selected cluster energy range: 300-4000 MeV - Check trigger: 100-10000 MeV FTHodo trigger operational: - Hits in the two layers matching the FTCal cluster position - New fadc gains based on MIPs calibration - Selected threshold: 0.25 MIP - Need to retune gains at the final luminosity FT L1 trigger fully debugged (data / firmware simulations). Efficiency higher than 99% over full energy range. 14
Thanks for your attention 15
FT performance vs. luminosity 16
FT tracker HV and readout settings HV scan performed at different luminosities HV scan at 5 na Cluster Multiplicity dependence on HV used to to identify optimal settings Conditions: 10.6 GeV 5 to 70 na electron trigger and only electron trigger bits Premix gas flow set at 3 L/h HV scan at 70 na 17